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Publications
2011
34- High Yield Production and Transfer of Graphene Flakes Obtained by Anodic Bonding.T. Moldt , A. Eckmann , P. Klar , S. V. Morozov , A. A. Zhukov , K. S. Novoselov , C. Casiraghi, 10.1021/nn202293f
33- Graphene bubbles with controllable curvature.T. Georgiou, L. Britnell, P. Blake, R. Gorbachev, A. Gholinia, A. K. Geim, C. Casiraghi, K. S. Novoselov, Appl. Phys. Lett. 99, 093103
32- Raman intensity of graphene.C. Casiraghi, Phys. Status Solidi (b) DOI:10.1002/pssb.201100040
31- Hydrogen effect on the Raman cross-section of Diamond-like Carbon.Casiraghi C., Diamond and Related Materials 20, 120
33- Graphene bubbles with controllable curvature.T. Georgiou, L. Britnell, P. Blake, R. Gorbachev, A. Gholinia, A. K. Geim, C. Casiraghi, K. S. Novoselov, Appl. Phys. Lett. 99, 093103
32- Raman intensity of graphene.C. Casiraghi, Phys. Status Solidi (b) DOI:10.1002/pssb.201100040
31- Hydrogen effect on the Raman cross-section of Diamond-like Carbon.Casiraghi C., Diamond and Related Materials 20, 120
2010
30- Facile covalent functionalization of graphene oxide using microwaves: bottom-up development of functional graphitic materials.Melucci M., Treossi E., Ortolani L., Giambastiani G., Morandi V., Klar P., Casiraghi C., Samori P. Palermo V. J. Mater. Chem., 20, 9052
29- Cascaded Optical Field Enhancement in Composite Plasmonic Nanostructures.Kravets V. G, Zoriniants G., Burrows C. P., Schedin F., Casiraghi C., Klar P., Geim A. K., Barnes W. L., and Grigorenko A. N., Phys. Rev. Lett. 105, 269906
29- Cascaded Optical Field Enhancement in Composite Plasmonic Nanostructures.Kravets V. G, Zoriniants G., Burrows C. P., Schedin F., Casiraghi C., Klar P., Geim A. K., Barnes W. L., and Grigorenko A. N., Phys. Rev. Lett. 105, 269906
2009
28- Raman spectroscopy of graphene edges.Casiraghi C., Hartschuh A., Qian H., Piscanec S., Georgi C., Fasoli A., Novoselov K. S., Geim A. K., and Ferrari A. C. , Nano Letters, 9, 1433.
27- Probing disorder and charged impurities in graphene by Raman Spectroscopy.Casiraghi C., Phys. Status Solidi RRL, 3, 175-177.
26- Quantitative composition of a single-walled carbon nanotube sample: Raman scattering vs. Photoluminescence.Heeg S., Malic E., Casiraghi C., S. Reich , Phys. Status Solidi B, 246, 11-12, 2740-2743.
25- Doping dependence of the Raman peaks intensity of graphene close to the Dirac point.C. Casiraghi, Phys. Rev. B, 80, 233407
27- Probing disorder and charged impurities in graphene by Raman Spectroscopy.Casiraghi C., Phys. Status Solidi RRL, 3, 175-177.
26- Quantitative composition of a single-walled carbon nanotube sample: Raman scattering vs. Photoluminescence.Heeg S., Malic E., Casiraghi C., S. Reich , Phys. Status Solidi B, 246, 11-12, 2740-2743.
25- Doping dependence of the Raman peaks intensity of graphene close to the Dirac point.C. Casiraghi, Phys. Rev. B, 80, 233407
2008
24- Thermal conductivity of ultra-thin tetrahedral amorphous carbon films.Balandin A. A., Shamsa M., Liu W. L., Casiraghi C. and Ferrari A. C., Applied Physics Letters, 93, 043115-1;043115-3.
23- Effect of the sp2 phase on n- type conduction in nanodiamond films.Ikeda T., Teii K., Casiraghi C., Robertson J., Ferrari A. C., Journal of Applied Physics, 104, 1-1;1-7.
22- Electronic transport characterization of Sc@C82 single walled carbon nanotube peapods.Cantone A.L., Buitelaar M. R., Smith C. G., Anderson D., Jones G. A. C., Chorley S. J., Casiraghi C., Lombardo A., Ferrari A. C., Shinohara H., Ardavan A., Warner J., Watt A. A. R., Porfyrakis K., Briggs G. A. D. Journal of Applied Physics, 104, 083787.
23- Effect of the sp2 phase on n- type conduction in nanodiamond films.Ikeda T., Teii K., Casiraghi C., Robertson J., Ferrari A. C., Journal of Applied Physics, 104, 1-1;1-7.
22- Electronic transport characterization of Sc@C82 single walled carbon nanotube peapods.Cantone A.L., Buitelaar M. R., Smith C. G., Anderson D., Jones G. A. C., Chorley S. J., Casiraghi C., Lombardo A., Ferrari A. C., Shinohara H., Ardavan A., Warner J., Watt A. A. R., Porfyrakis K., Briggs G. A. D. Journal of Applied Physics, 104, 083787.
2007
21- Diamond-like carbon for data and beer storage.Casiraghi C., Ferrari A. C. and Robertson J. Materials Today 10, 44-53.
20- Born-Oppenheimer breakdown in graphene. Pisana S., Lazzeri M., Casiraghi C., Novoselov K. S., Geim A. K., Ferrari A. C. and Mauri F. Nature Materials 6, 198-201.
19- Rayleigh Imaging of Graphene and Graphene layers. Casiraghi C., Hartschuh A., Lidorikis E., Qian H., Harutyunyan H., Gokus T., Novoselov K S. and Ferrari A. C. Nano Letters, 7, 2711- 2717.
18- Raman fingerprint of charged impurities in graphene. Casiraghi C., Pisana S., Novoselov K. S., Geim A. K and Ferrari A. C. Applied Physics Letters, 91, 233108.
20- Born-Oppenheimer breakdown in graphene. Pisana S., Lazzeri M., Casiraghi C., Novoselov K. S., Geim A. K., Ferrari A. C. and Mauri F. Nature Materials 6, 198-201.
19- Rayleigh Imaging of Graphene and Graphene layers. Casiraghi C., Hartschuh A., Lidorikis E., Qian H., Harutyunyan H., Gokus T., Novoselov K S. and Ferrari A. C. Nano Letters, 7, 2711- 2717.
18- Raman fingerprint of charged impurities in graphene. Casiraghi C., Pisana S., Novoselov K. S., Geim A. K and Ferrari A. C. Applied Physics Letters, 91, 233108.
2006
17- Roughness evolution during growth of hydrogenated tetrahedral amorphous carbon. Pisana S., Casiraghi C., Ferrari A. C. and Robertson J. Diamond and Related Materials 15, 898-903.
16- Hydrogenated amorphous carbon film coating of PET bottles for gas diffusion barriers. Boutroy N., Pernel Y., Rius J. M., Auger F., von Bardeleben H. J., Cantin J. L., Abel F., Zeinert A., Casiraghi C., Ferrari A. C. and Robertson J. Diamond and Related Materials 15, 921-927.
15- Raman spectroscopy of graphene and few layers graphene. Ferrari A. C., Meyer J. C., Scardaci V., Casiraghi C., Lazzeri M., Mauri F., Piscanec S., Jiang D., Novoselov K. S., Roth S. and Geim A. K. Physical Review Letters 97, 18740-1; 18740-4.
14- Thermal conductivity of diamond-like carbon films. Shamsa M., Liu W. L., Balandin A. A., Casiraghi C., Milne W. and Ferrari A. C. Applied Physics Letters 86, 161921-1; 161921-3.
16- Hydrogenated amorphous carbon film coating of PET bottles for gas diffusion barriers. Boutroy N., Pernel Y., Rius J. M., Auger F., von Bardeleben H. J., Cantin J. L., Abel F., Zeinert A., Casiraghi C., Ferrari A. C. and Robertson J. Diamond and Related Materials 15, 921-927.
15- Raman spectroscopy of graphene and few layers graphene. Ferrari A. C., Meyer J. C., Scardaci V., Casiraghi C., Lazzeri M., Mauri F., Piscanec S., Jiang D., Novoselov K. S., Roth S. and Geim A. K. Physical Review Letters 97, 18740-1; 18740-4.
14- Thermal conductivity of diamond-like carbon films. Shamsa M., Liu W. L., Balandin A. A., Casiraghi C., Milne W. and Ferrari A. C. Applied Physics Letters 86, 161921-1; 161921-3.
2005
13- The smoothness of tetrahedral amorphous carbon. Casiraghi C., Ferrari A. C. and Robertson J. Diamond and Related Materials 14, 913-920.
12- Bonding in hydrogenated diamond-like carbon by Raman spectroscopy, Casiraghi C., Piazza F., Ferrari A. C., Grambole D. and Robertson J. Diamond and Related Materials 14, 1098-1102.
11- Protective diamond-like carbon coatings for future optical storage disks, Piazza F., Grambole D., Schneider D., Casiraghi C., Ferrari A. C. and Robertson J. Diamond and Related Materials 14, 994-999.
10- Raman spectroscopy of hydrogenated amorphous carbons. Casiraghi C., Ferrari A. C. and Robertson J. Physical Review B 72, 08540.
9- Effects of catalyst film thickness on plasma-enhanced carbon nanotube growth. Hofmann S., Cantoro M., Kleinsorge B., Casiraghi C., Parvez A., Robertson J. and Ducati C. Journal of Applied Physics 98, 034308-1; 034308-8.
8- The ultrasmoothness of diamond-like carbon surfaces. Moseler M., Gumbsch P., Casiraghi C., Ferrari A. C. and Robertson J. Science 309, 1545-1548.
12- Bonding in hydrogenated diamond-like carbon by Raman spectroscopy, Casiraghi C., Piazza F., Ferrari A. C., Grambole D. and Robertson J. Diamond and Related Materials 14, 1098-1102.
11- Protective diamond-like carbon coatings for future optical storage disks, Piazza F., Grambole D., Schneider D., Casiraghi C., Ferrari A. C. and Robertson J. Diamond and Related Materials 14, 994-999.
10- Raman spectroscopy of hydrogenated amorphous carbons. Casiraghi C., Ferrari A. C. and Robertson J. Physical Review B 72, 08540.
9- Effects of catalyst film thickness on plasma-enhanced carbon nanotube growth. Hofmann S., Cantoro M., Kleinsorge B., Casiraghi C., Parvez A., Robertson J. and Ducati C. Journal of Applied Physics 98, 034308-1; 034308-8.
8- The ultrasmoothness of diamond-like carbon surfaces. Moseler M., Gumbsch P., Casiraghi C., Ferrari A. C. and Robertson J. Science 309, 1545-1548.
2002- 2004
7- Plasma: Production by Laser Ablation.Bonelli M., Miotello A., Mosaner P., Casiraghi C. and Ossi P. M., 34-40 (2004).
6- Ultra-thin carbon layer for high-density magnetic storage devices.Casiraghi C., Ferrari A. C., Robertson J., Ohr R., Gradowski M. v., Schneider D. and Hilgers H. (2004): Diamond and Related Materials 13, 1480-1485.
5- Large area deposition of hydrogenated amorphous carbon films for optical storage disks.Piazza F., Grambole D., Zhou L., Talke F., Casiraghi C., Ferrari A. C. and Robertson J. Diamond and Related Materials 13, 1505-1510.
4- Surface properties of ultra-thin tetrahedral amorphous carbon films for magnetic storage technology.Casiraghi C., Ferrari A. C., Ohr R., Chu D. P. and Robertson J. (2004): Diamond and Related Materials 13, 1416-1421.
3- Dynamic roughening of tetrahedral amorphous carbon.Casiraghi C., Ferrari A. C., Ohr R., Flewitt A. J., Chu D. P. and Robertson J. (2003): Physical Review Letters 91, 226104-1;226104-4.
2- Pulsed laser deposition of diamond-like carbon films on polycarbonate.Bonelli M., Miotello A., Mosaner P., Casiraghi C. and Ossi P. M. (2002): Journal of Applied Physics 93, 859-865.
1- Spectroscopic characterisation of DLC films deposited on polycarbonate by pulsed laser ablation.Bonelli M., Casiraghi C., Miotello A., Mosaner P. and Ossi P. M (2002): Surface and Coating Technology 151-152, 303-307.
6- Ultra-thin carbon layer for high-density magnetic storage devices.Casiraghi C., Ferrari A. C., Robertson J., Ohr R., Gradowski M. v., Schneider D. and Hilgers H. (2004): Diamond and Related Materials 13, 1480-1485.
5- Large area deposition of hydrogenated amorphous carbon films for optical storage disks.Piazza F., Grambole D., Zhou L., Talke F., Casiraghi C., Ferrari A. C. and Robertson J. Diamond and Related Materials 13, 1505-1510.
4- Surface properties of ultra-thin tetrahedral amorphous carbon films for magnetic storage technology.Casiraghi C., Ferrari A. C., Ohr R., Chu D. P. and Robertson J. (2004): Diamond and Related Materials 13, 1416-1421.
3- Dynamic roughening of tetrahedral amorphous carbon.Casiraghi C., Ferrari A. C., Ohr R., Flewitt A. J., Chu D. P. and Robertson J. (2003): Physical Review Letters 91, 226104-1;226104-4.
2- Pulsed laser deposition of diamond-like carbon films on polycarbonate.Bonelli M., Miotello A., Mosaner P., Casiraghi C. and Ossi P. M. (2002): Journal of Applied Physics 93, 859-865.
1- Spectroscopic characterisation of DLC films deposited on polycarbonate by pulsed laser ablation.Bonelli M., Casiraghi C., Miotello A., Mosaner P. and Ossi P. M (2002): Surface and Coating Technology 151-152, 303-307.
